Journal
PLANTS-BASEL
Volume 12, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/plants12061370
Keywords
global warming; phosphorus; Canadian goldenrod; silvery wormwood; growth; photosynthesis
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Anthropogenic climate change and species invasion pose significant threats to biodiversity, impacting the survival and distribution of species worldwide. Understanding the responses of invasive species to climate change can provide valuable insights into the ecological and genetic mechanisms of their invasion. However, the effects of warming and phosphorus deposition on native and invasive plant phenotypes remain uncertain.
Anthropogenic climate change and species invasion are two major threats to biodiversity, affecting the survival and distribution of many species around the world. Studying the responses of invasive species under climate change can help better understand the ecological and genetic mechanisms of their invasion. However, the effects of warming and phosphorus deposition on the phenotype of native and invasive plants are unknown. To address the problem, we applied warming (+2.03 degrees C), phosphorus deposition (4 g m(-2) yr(-1) NaH2PO4), and warming x phosphorus deposition to Solidago canadensis and Artemisia argyi to measure the direct effects of environmental changes on growth and physiology at the seedling stage. Our results reveal that the physiology parameters of A. argyi and S. canadensis did not change significantly with the external environment. Under phosphorus deposition, S. canadensis had higher plant height, root length, and total biomass compared to A. argyi. Interestingly, warming has an inhibitory effect on the growth of both A. argyi and S. canadensis, but overall, the reduction in total biomass for S. canadensis (78%) is significantly higher than A. argyi (52%). When the two plants are treated with warming combined with phosphorus deposition, the advantage gained by S. canadensis from phosphorus deposition is offset by the negative effects of warming. Therefore, under elevated phosphorus, warming has a negative effect on the invasive S. canadensis and reduces its growth advantage.
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